Linear Dichroism Measurements for the Study of Protein-DNA Interactions
Reviewartikel, 2023

Linear dichroism (LD) is a differential polarized light absorption spectroscopy used for studying filamentous molecules such as DNA and protein filaments. In this study, we review the applications of LD for the analysis of DNA-protein interactions. LD signals can be measured in a solution by aligning the sample using flow-induced shear force or a strong electric field. The signal generated is related to the local orientation of chromophores, such as DNA bases, relative to the filament axis. LD can thus assess the tilt and roll of DNA bases and distinguish intercalating from groove-binding ligands. The intensity of the LD signal depends upon the degree of macroscopic orientation. Therefore, DNA shortening and bending can be detected by a decrease in LD signal intensity. As examples of LD applications, we present a kinetic study of DNA digestion by restriction enzymes and structural analyses of homologous recombination intermediates, i.e., RecA and Rad51 recombinase complexes with single-stranded DNA. LD shows that the DNA bases in these complexes are preferentially oriented perpendicular to the filament axis only in the presence of activators, suggesting the importance of organized base orientation for the reaction. LD measurements detect DNA bending by the CRP transcription activator protein, as well as by the UvrB DNA repair protein. LD can thus provide information about the structures of protein-DNA complexes under various conditions and in real time.

transcription regulation

cyclic AMP receptor protein (CRP)

DNA/protein complex

Rad51

homologous recombination

UvrB nucleotide excision repair protein

linear dichroism (LD)

RecA

catabolism activator protein (CAP)

restriction enzyme

Författare

Masayuki Takahashi

Tokyo Institute of Technology

Bengt Nordén

Chalmers, Kemi och kemiteknik, Kemi och biokemi

International Journal of Molecular Sciences

16616596 (ISSN) 14220067 (eISSN)

Vol. 24 22 16092

Ämneskategorier

Fysikalisk kemi

Biokemi och molekylärbiologi

DOI

10.3390/ijms242216092

PubMed

38003280

Mer information

Senast uppdaterat

2023-12-13